Subdaily growth patterns and organo-mineral nanostructure of the growth layers in the calcitic prisms of the shell of Concholepas concholepas Bruguiere, 1789 (Gastropoda, Muricidae)

Guzman N; Ball AD; Cuif JP; Dauphin Y; Denis A; Ortlieb L

首页> 外文期刊>Microscopy and microanalysis: The official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada >Subdaily growth patterns and organo-mineral nanostructure of the growth layers in the calcitic prisms of the shell of Concholepas concholepas Bruguiere, 1789 (Gastropoda, Muricidae)

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Subdaily growth patterns and organo-mineral nanostructure of the growth layers in the calcitic prisms of the shell of Concholepas concholepas Bruguiere, 1789 (Gastropoda, Muricidae)

机译：Concholepas concholepas Bruguiere，1789年（Gastropoda，Muricenidae）壳的钙质棱晶中亚层的日生长模式和有机矿物纳米结构。

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Fluorochrome marking of the gastropod Concholepas concholepas has shown that the prismatic units of the shell are built by superimposition of isochronic growth layers of about 2 mu m. Fluorescent growth marks make it possible to establish the high periodicity of the cyclic biomineralization process at a standard growth rhythm of about 45 layers a day. Sulphated polysaccharides have been identified within the growth layers by using synchrotron radiation, whereas high resolution mapping enables the banding pattern of the mineral phase to be correlated with the layered distribution of polysaccharides. Atomic force microscopy has shown that the layers are made of nanograins densely packed in an organic component.

机译：腹足纲Concholepas conholepas的荧光标记表明，壳的棱柱形单元是通过叠加约2微米的等时生长层而建立的。荧光生长标记使建立循环生物矿化过程的高周期性成为可能，一天的标准生长节奏约为45层。已通过使用同步加速器辐射在生长层内鉴定出了硫酸化多糖，而高分辨率映射使矿物相的谱带图谱与多糖的分层分布相关。原子力显微镜显示，这些层是由紧密堆积在有机成分中的纳米颗粒制成的。

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《Microscopy and microanalysis: The official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada》 |2007年第5期|共7页
作者
Guzman N; Ball AD; Cuif JP; Dauphin Y; Denis A; Ortlieb L;
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正文语种 eng
中图分类分析化学;
关键词
biomineralization; sulphated polysaccharides; microstructure; organo-mineral nanograins; CALCEIN; CORALS; SULFUR; MARKER; LINES;

机译：生物矿化;硫酸化多糖;微观结构;有机矿物质纳米粒;钙钙蛋白;珊瑚;硫;标记;线;

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1. Subdaily growth patterns and organo-mineral nanostructure of the growth layers in the calcitic prisms of the shell of Concholepas concholepas Bruguiere, 1789 (Gastropoda, Muricidae) [J] . Guzman N, Ball AD, Cuif JP, Microscopy and microanalysis: The official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada . 2007,第5期

机译：Concholepas concholepas Bruguiere，1789年（Gastropoda，Muricenidae）壳的钙质棱晶中亚层的日生长模式和有机矿物纳米结构。
2. Structure and composition of the boundary zone between aragonitic crossed lamellar and calcitic prism layers in the shell of concholepas concholepas (mollusca, gastropoda) [J] . Dauphin Y., Cuif J.-P., Cotte M., Invertebrate biology . 2012,第3期

机译：贝壳果壳（软体动物，腹足纲）的壳层和钙质棱镜层之间的边界层的结构和组成
3. Quantitative evaluation of the diet and feeding behavior of the carnivorous gastropod, Concholepas concholepas (Bruguiere, 1789) (muricidae) in subtidal habitats in the southeastern pacific upwelling system [J] . Stotz WB, Gonzalez SA, Caillaux L, Journal of Shellfish Research . 2003,第1期

机译：在东南太平洋上升流系统潮下生境中食肉腹足纲孔雀纲Concholepas conholepas（Bruguiere，1789）（muricidae）的饮食和摄食行为的定量评估
4. New Design Concepts for Inorganic Solar Cells: From Thin Films to Functional Nanostructures: Using a pulsed laser for in-situ growth of semiconductor core-shell nanostructures [C] . Lídice Vaillant Roca, Yerila Rodríguez Martínez, Jesús Antonio Alba Cabañas, Conference on Photonics North . 2017

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6. Correction: Ocean Acidification Disrupts Prey Responses to Predator Cues but Not Net Prey Shell Growth in Concholepas concholepas (loco) [O] . Patricio H. Manríquez, María Elisa Jara, María Loreto Mardones, -1

机译：更正：海洋酸化破坏了对Concholepas conholepas（loco）的捕食者线索的猎物响应但没有破坏猎物的净壳生长。
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机译：图案化衬底上半导体异质结构的生长：缺陷减少和纳米结构

Subdaily growth patterns and organo-mineral nanostructure of the growth layers in the calcitic prisms of the shell of Concholepas concholepas Bruguiere, 1789 (Gastropoda, Muricidae)

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